Bearings – Rotary bearing – Fluid bearing
Reexamination Certificate
2000-06-15
2003-12-02
Hannon, Thomas R. (Department: 3682)
Bearings
Rotary bearing
Fluid bearing
Reexamination Certificate
active
06655841
ABSTRACT:
FIELD OF THE INVENTION
The present invention is related to a fluid dynamic bearing incorporated into a cartridge.
BACKGROUND OF THE INVENTION
The stability and lifetime of a shaft and a sleeve and bearing assembly is of critical importance. One typical bearing assembly comprises ball bearings supported between a pair of races which allow relative rotation of the inner and outer pieces. However, ball bearing assemblies have many mechanical problems such as wear, run-out and manufacturing difficulties. Moreover, resistance to operating shock and vibration is poor, because of low damping. Thus, there has been a search for alternative bearing assemblies.
One alternative bearing design is a fluid dynamic bearing. In a fluid dynamic bearing, a lubricating fluid such as gas or a liquid or air provides a bearing surface between a fixed member and a rotating member or two relatively rotating members. Typical lubricants include oil or ferromagnetic fluids. Fluid dynamic bearings spread the bearing interface over a large continuous surface area in comparison with a ball bearing assembly, which comprises a series of point interfaces. This is desirable because the increased bearing surface reduces wobble or run-out between the rotating and fixed members. Further, improved shock resistance and ruggedness is achieved with a hydrodynamic bearing. Also, the use of fluid in the interface area imparts damping effects to the bearing which helps to reduce non-repeat runout.
As presently designed, fluid dynamic bearing motors seal the open end, whether it is just one end or both ends, using a capillary seal which simply comprises two relatively angled surfaces at the end of the gap with the seal being formed from one surface angled relative to the other. The problem with such conventional capillary seals is that they depend entirely on surface tension to maintain or draw fluid back into the motor. When used in pairs, as in a motor having an FDB which is open at both ends, such as a top cover attached motor, such a pair of capillary seals can be categorized as a pull-pull system; when there is more oil in one end than the other, the capillary seal with the lesser amount of oil pulls harder than the opposing capillary seal, and restores equilibrium. However, such capillary seals have been shown to be quite weak and have low volume. The problem with this low stiffness in a motor open at two ends is that only a small pressure imbalance in the motor can overcome the low seal stiffness, and cause oil to be lost with larger seal volume, the seal reservoir can store oil for equalization purposes.
Thus in designing cartridges incorporating a fluid dynamic bearing (FDB), especially a FDB open at both ends, this issue must be carefully accounted for.
SUMMARY OF THE INVENTION
The present invention provides a fluid dynamic bearing cartridge where the bearing is defined between two relatively rotating surfaces which are open to the air at both ends, thereby allowing the use of a fixed shaft or sleeve.
According to the design, a shaft or sleeve adapted to be fixed in place has at least one fluid dynamic bearing supporting the shaft and one or more seals at either end of the shaft. The seal arrangements may include a pair of centrifugal capillary seals at either end of the shaft. Alternatively, a grooved pumping seal or centrifugal capillary seal at one end may be used in combination with a static capillary seal, especially where a journal bearing defined along the shaft near the capillary seal has an imbalanced groove section.
REFERENCES:
patent: 3511546 (1970-05-01), Muijderman
patent: 5855437 (1999-01-01), Lee
patent: 6127756 (2000-10-01), Iwaki et al.
patent: 6144523 (2000-11-01), Murthy et al.
patent: 6154339 (2000-11-01), Grantz et al.
patent: 6181039 (2001-01-01), Kennedy et al.
Grantz Alan Lyndon
Heine Gunter
Hannon Thomas R.
Moser, Petterson & Sheridan, LLP
Seagate Technology LLC
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